Secret Decoder Ring

Introduction

ARM chips are the most widely-produced processor family in the world; they have historically been used in cell phones and embedded applications, but were originally designed as desktop processors, and are increasingly used in tablet devices and low-power-consumption servers.

The Fedora-ARM project is an initiative to bring Fedora to this processor family.

Why ARM?

Low Power Consumption / Better efficiencies

High levels of device integration -- "system on a chip" designs, with reduced space and cooling requirements

Readily available from multiple vendors

Low cost

Why does Fedora care about ARM?

Emerging technology (as a general purpose computing platform)

Growing user base

Understanding ARM

Software floating point vs. Hardware floating point

Fedora currently offers two flavours of ARM - 'arm(sfp)' and 'armhfp'. This is a reference to whether floating point values are passed to functions via CPU registers (sfp) or FPU registers (hfp); note that both API variants can use the FPU to perform arithmetic.

Here is the background: In older ARM chips (prior to ARM v7 "Application Profile"), the floating point unit (FPU, typically a vector floating point unit or "VFP") was optional. Therefore, function arguments were passed in the CPU registers or on the stack. However, when an FPU is available, moving floating-point values from the CPU registers to the FPU registers and back again has a significant cost which negates some of the advantage of having the additional arithmetic hardware. When the FPU became mandatory with ARMv7, it made sense to pass floating-point arguments directly in FPU registers. This is an incompatible ABI change, so programs which pass value in the CPU registers are incompatible with libraries that pass values in the FPU registers (and vice versa).

Additional ARM technologies

What is U-Boot

U-Boot -the Universal Boot Loader is the firmware used on embedded systems such as ARM, MIPS and Embedded Power architectures. It performs the task of other bootloader's by loading the Linux kernel and operating system into memory for execution, but is also responsible for hardware initialization comparable to the BIOS on X86 hardware.

Why U-Boot?

The Basic Input/Output System (BIOS) is exclusively available on x86 systems and performs a variety of tasks outside of just loading the kernel into memory. While BIOS on ARM is feasible, development costs exceed the potential benefits and ARM systems use the faster bootloader approach. The Unified Extensible Firmware Interface (UEFI) is replacing the BIOS on modern computers and is also compatible with the ARM architecture.

There are many variations of U-Boot which includes - vboot, aboot, hboot.

Generating addresses for kernel/initrd/dtb

Quick Start

What's the quickest way to get Fedora on my device?

Download the pre-built images corresponding to your device and following the instructions for writing the image to your media.

Koji-shadow

Koji-Shadow is a script that is used by secondary architectures to 'follow' package builds performed on the primary architecture (PA) [Koji instance]. When a build is submitted on PA, the script will pick it up and submit the build for completion on the secondary architecture. This ensures secondary architectures build the same packages used in primary within a reasonable time frame, developers need to only submit their package once, and it is propagated to all secondary architectures running Koji-Shadow. Koji-Shadow is included in the 'koji-utils' package.

More information on Koji

Bodhi

Bodhi pronounced as bo-dee is a buddhist term for the wisdom by which one attains enlightenment. Bodhi is a modular web-based system that facilitates the process of publishing package updates for Fedora. It maintains a single stage of repositories by adding/updating/removing packages.